In an embodiment, a device includes: a processor die including circuit blocks, the circuit blocks including active devices of a first technology node; a power gating die including power semiconductor devices of a second technology node, the second technology node larger than the first technology node; and a first redistribution structure including first metallization patterns, the first metallization patterns including power supply source lines and power supply ground lines, where a first subset of the circuit blocks is electrically coupled to the power supply source lines and the power supply ground lines through the power semiconductor devices, and a second subset of the circuit blocks is permanently electrically coupled to the power supply source lines and the power supply ground lines.

In an embodiment, a device includes: a processor die including circuit blocks, the circuit blocks including active devices of a first technology node; a power gating die including power semiconductor devices of a second technology node, the second technology node larger than the first technology node; and a first redistribution structure including first metallization patterns, the first metallization patterns including power supply source lines and power supply ground lines, where a first subset of the circuit blocks is electrically coupled to the power supply source lines and the power supply ground lines through the power semiconductor devices, and a second subset of the circuit blocks is permanently electrically coupled to the power supply source lines and the power supply ground lines.

A semiconductor device includes an integrated circuit, first conductive features, second conductive features, a package structure, and an encapsulant. The integrated circuit has an active surface and a rear surface opposite to the active surface. The first conductive features surround the integrated circuit. The second conductive features are stacked on the first conductive features. The package structure is disposed on the second conductive features and the rear surface of the integrated circuit. The encapsulant laterally encapsulates the integrated circuit, the first conductive features, the second conductive features, and the package structure.

A semiconductor device includes an integrated circuit, first conductive features, second conductive features, a package structure, and an encapsulant. The integrated circuit has an active surface and a rear surface opposite to the active surface. The first conductive features surround the integrated circuit. The second conductive features are stacked on the first conductive features. The package structure is disposed on the second conductive features and the rear surface of the integrated circuit. The encapsulant laterally encapsulates the integrated circuit, the first conductive features, the second conductive features, and the package structure.

An integrated circuit includes a conductive pad. In some embodiments, the conductive pad includes at least one dielectric pattern therein, wherein the at least one dielectric pattern penetrates a surface of the conductive pad. In some embodiments, the conductive pad includes a conductive main body and at least one hole in the conductive main body, wherein the at least one hole penetrates a surface of the conductive main body.

An integrated circuit includes a conductive pad. In some embodiments, the conductive pad includes at least one dielectric pattern therein, wherein the at least one dielectric pattern penetrates a surface of the conductive pad. In some embodiments, the conductive pad includes a conductive main body and at least one hole in the conductive main body, wherein the at least one hole penetrates a surface of the conductive main body.

A semiconductor device package includes a redistribution layer, a plurality of conductive pillars, a reinforcing layer and an encapsulant. The conductive pillars are in direct contact with the first redistribution layer. The reinforcing layer surrounds a lateral surface of the conductive pillars. The encapsulant encapsulates the first redistribution layer and the reinforcing layer. The conductive pillars are separated from each other by the reinforcing layer.

A semiconductor device is disclosed, comprising a first semiconductor die comprising a plurality of transistors; a second semiconductor die comprising power supply circuitry configured to generate a supply voltage for the plurality of transistors of the first semiconductor die; and a heat spreader structure. A power supply routing for a reference voltage or a power supply voltage which extends from the heat spreader structure through the second semiconductor die to the first semiconductor die.

A semiconductor device is disclosed, comprising a first semiconductor die comprising a plurality of transistors; a second semiconductor die comprising power supply circuitry configured to generate a supply voltage for the plurality of transistors of the first semiconductor die; and a heat spreader structure. A power supply routing for a reference voltage or a power supply voltage which extends from the heat spreader structure through the second semiconductor die to the first semiconductor die.

One of integrated circuits includes a substrate, a through via, a conductive pad and at least one via. The through via is disposed in the substrate. The conductive pad is disposed over and electrically connected to the through via, and the conductive pad includes at least one dielectric pattern therein. The via is disposed between and electrically connected to the through via and the conductive pad.